Author:
Tonnesen P. Erik,Mercaldo Nathaniel D.,Tahir Ismail,Dietrich Anna-Sophia W.,Amayri Wael,Graur Alexander,Allaire Brett,Bouxsein Mary L.,Samelson Elizabeth J.,Kiel Douglas P.,Fintelmann Florian J.
Abstract
Background
Loss of muscle mass is a known feature of sarcopenia and predicts poor clinical outcomes. Although muscle metrics can be derived from routine computed tomography (CT) images, sex-specific reference values at multiple vertebral levels over a wide age range are lacking.
Objective
The aim of this study was to provide reference values for skeletal muscle mass and attenuation on thoracic and abdominal CT scans in the community-based Framingham Heart Study cohort to aid in the identification of sarcopenia.
Materials and Methods
This secondary analysis of a prospective trial describes muscle metrics by age and sex for participants from the Framingham Heart Study without prior history of cancer who underwent at least 1 CT scan between 2002 and 2011. Using 2 previously validated machine learning algorithms followed by human quality assurance, skeletal muscle was analyzed on a single axial CT image per level at the 5th, 8th, 10th thoracic, and 3rd lumbar vertebral body (T5, T8, T10, L3). Cross-sectional muscle area (cm2), mean skeletal muscle radioattenuation (SMRA, in Hounsfield units), skeletal muscle index (SMI, in cm2/m2), and skeletal muscle gauge (SMRA·SMI) were calculated. Measurements were summarized by age group (<45, 45–54, 55–64, 65–74, ≥75 years), sex, and vertebral level. Models enabling the calculation of age-, sex-, and vertebral-level–specific reference values were created and embedded into an open access online Web application.
Results
The cohort consisted of 3804 participants (1917 [50.4%] males; mean age, 55.6 ± 11.8 years; range, 33–92 years) and 7162 CT scans. Muscle metrics qualitatively decreased with increasing age and female sex.
Conclusions
This study established age- and sex-specific reference values for CT-based muscle metrics at thoracic and lumbar vertebral levels. These values may be used in future research investigating the role of muscle mass and attenuation in health and disease, and to identify sarcopenia.
Publisher
Ovid Technologies (Wolters Kluwer Health)
Subject
Radiology, Nuclear Medicine and imaging,General Medicine